Limit Profile for the Bernoulli--Laplace Urn

Sam Olesker-Taylor; Dominik Schmid

arXiv:2409.07900·math.PR·September 13, 2024

Limit Profile for the Bernoulli--Laplace Urn

Sam Olesker-Taylor, Dominik Schmid

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Abstract

We analyse the convergence to equilibrium of the Bernoulli--Laplace urn model: initially, one urn contains $k$ red balls and a second $n - k$ blue balls; in each step, a pair of balls is chosen uniform and their locations are switched. Cutoff is known to occur at $\frac{1}{2} n lo g min {k, n}$ with window order $n$ whenever $1 ≪ k \leq \frac{1}{2} n$ . We refine this by determining the limit profile: a function $Φ$ such that \[ d_\mathsf{TV}\bigl( \tfrac12 n \log \min\{k, \sqrt n\} + \theta n \bigr) \to \Phi(\theta) \quad\text{as}\quad n \to \infty \quad\text{for all}\quad \theta \in \mathbb R. \] Our main technical contribution, of independent interest, approximates a rescaled chain by a diffusion on $R$ when $k ≫ n$ , and uses its explicit law as a Gaussian process.

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TopicsPoint processes and geometric inequalities · Geometric Analysis and Curvature Flows · Sports Dynamics and Biomechanics